CN204084804U - Heat exchanger load module and air-conditioner - Google Patents

Abstract

The utility model discloses a kind of heat exchanger load module, comprise fixed support and heat exchanger, the upper and lower of described heat exchanger has two bights respectively, bight described in each is provided with its coated beam, and described heat exchanger is suspended on described fixed support by the beam on bight described in each.The invention also discloses a kind of air-conditioner.Because beam has the ability of absorbing vibration, therefore when heat exchanger is subject to intense impact, under the cushioning effect of beam, can prevent heat exchanger from occurring being out of shape the phenomenon even damaged; In addition, in air-conditioner running, the heat exchanger mounting structure of this form also can reduce, owing to shaking the noise caused, to improve the comfort of air-conditioner.

Description

Heat exchanger load module and air-conditioner

Technical field

The utility model relates to technical field of refrigeration equipment, particularly relates to a kind of heat exchanger load module and air-conditioner.

Background technology

The evaporimeter of current indoor apparatus of air conditioner is mainly directly fixed on side plate or backboard by screw, for being rigidly connected between evaporimeter and side plate or backboard, because evaporimeter own wt is heavier, in transport or falling process, impulsive force suffered by it is larger, and therefore impulsive force can be delivered on the long U pipe of evaporimeter, because copper pipe quality is softer by rigid connection structure, stressed easy distortion even fractures, and therefore likely occurs the fault of refrigrant leakage or blocking pipeline.

Foregoing only understands the technical solution of the utility model for auxiliary, does not represent and admits that foregoing is prior art.

Utility model content

Main purpose of the present utility model is to solve the technical problem that heat exchanger assembly structure of the prior art cannot alleviate impact.

For achieving the above object, the utility model provides a kind of heat exchanger load module, comprise fixed support and heat exchanger, the upper and lower of described heat exchanger has two bights respectively, bight described in each is provided with its coated beam, and described heat exchanger is suspended on described fixed support by the beam on bight described in each.

Preferably, described beam is provided with the groove suitable with described bight, and described beam is enclosed within described bight.

Preferably, described groove and described bight interference fit.

Preferably, described beam is provided with and runs through described beam and the discharge outlet being communicated with described groove.

Preferably, described heat exchanger load module also comprises the pressing plate and drip tray that are connected with described fixed support respectively, described pressing plate is combined with described support bracket fastened top and is formed with the container cavity of the upper end of accommodating described heat exchanger, the upper end of described heat exchanger loads in described container cavity and is fastened on described support bracket fastened top, and the lower end of described heat exchanger loads in the water receiving tank of described drip tray and is fastened on described support bracket fastened bottom.

Preferably, described pressing plate is provided with the multiple through holes distributed along its length, described fixed support is provided with the stud corresponding with the position of through hole described in each, described stud is provided with screwed hole, and described pressing plate passes through through the screw fastening in the described screwed hole that also screw-in is corresponding of through hole described in each on described fixed support.

Preferably, described pressing plate is formed with the first holding tank with the shape adaptation of described beam respectively near the position at its two ends, and the beam on the top of described heat exchanger embeds in described first holding tank.

Preferably, described drip tray is formed with the second holding tank with the shape adaptation of described beam respectively near the position at its two ends, and the beam of the bottom of described heat exchanger embeds in described second holding tank.

Preferably, described heat exchanger is for being flat parallel-flow heat exchanger, described heat exchanger comprises the heat exchange unit of the stacked setting of two rows, described heat exchange unit comprises header, lower header and the flat tube that is arranged between described upper header and described lower header and fin, and the two ends of described flat tube are communicated with described lower header with described upper header respectively.

In addition, for achieving the above object, the utility model also provides a kind of air-conditioner, and it comprises the heat exchanger load module in above-mentioned any one technical scheme.

A kind of heat exchanger load module provided by the utility model and air-conditioner, four bights of heat exchanger are respectively arranged with beam, heat exchanger is suspended on fixed support by the beam of four on it, thus the installation realizing heat exchanger is fixed, because beam has the ability of absorbing vibration, therefore, when heat exchanger is subject to intense impact, under the cushioning effect of beam, can prevent heat exchanger from occurring being out of shape the phenomenon even damaged; In addition, in air-conditioner running, the heat exchanger mounting structure of this form also can reduce, owing to shaking the noise caused, to improve the comfort of air-conditioner.

Accompanying drawing explanation

Fig. 1 is the assembling schematic diagram of heat exchanger load module one embodiment of the present utility model;

Fig. 2 is the heat exchanger load module exploded perspective view shown in Fig. 1;

Fig. 3 is the structural representation of the heat exchanger shown in Fig. 2;

Fig. 4 is the structural representation of the pressing plate shown in Fig. 2;

Fig. 5 is the structural representation at beam one visual angle shown in Fig. 2;

Fig. 6 is the structural representation at another visual angle of beam shown in Fig. 2.

The realization of the utility model object, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Detailed description of the invention

Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

The utility model provides a kind of heat exchanger load module, see Fig. 1 and Fig. 2, in one embodiment, this heat exchanger load module comprises fixed support 100 and heat exchanger 200, as shown in Figure 2, the heat exchanger 200 of the present embodiment is evaporimeter, be applicable to cabinet type air conditioner indoor set, fixed support 100 is in frame-type, there is the frame groove of accommodating heat exchanger 200, and fixed support 100 is provided with air inlet 110, the air inlet mode adopting the air-conditioner of this heat exchanger load module is thus dorsal part air intake, thus reach the object reducing running noises.The upper and lower of heat exchanger 200 has two bights (figure does not mark) respectively, each bight is provided with its coated beam 500, wherein beam 500 has good elasticity and buffer capacity, such as cushion pad 500 is made up of rubber, its hardness number is between 5HS ~ 85HS, heat exchanger 200 is suspended on fixed support 100 by the beam 500 on each bight, and also namely heat exchanger 200 is fixed on the ad-hoc location of fixed support 100 by beam 500.

Because beam 500 has the ability of absorbing vibration, and heat exchanger 200 adopts the form of suspension to be arranged on fixed support 100, therefore when heat exchanger 200 is subject to intense impact, under the cushioning effect of beam 500, greatly can reduce impulsive force, prevent heat exchanger 200 from occurring being out of shape the phenomenon even damaged, reduce the maintenance rate of air-conditioner; In addition, in air-conditioner running, this mounting structure of heat exchanger 200 also can reduce, owing to shaking the noise caused, to improve the comfort of air-conditioner.

See Fig. 3, wherein heat exchanger 200 is for being flat parallel-flow heat exchanger, this heat exchanger 200 comprises the heat exchange unit (being respectively the first heat exchange unit 210 and the second heat exchange unit 220 corresponding to Fig. 3) of the stacked setting of two rows, in the present embodiment, first heat exchange unit 210 is substantially identical with the agent structure of the second heat exchange unit 220, the concrete composition of this heat exchanger 200 is described for the first heat exchange unit 210 below: the first heat exchange unit 210 comprises upper header 211, lower header 212 and the flat tube be arranged between header 211 and lower header 212 and fin (not shown), the two ends of flat tube are communicated with lower header 212 with upper header 211 respectively.As shown in Figure 3, the both ends of upper header 211 and lower header 212 constitute the part in the bight of heat exchanger 200 respectively.Should be understood that, the present embodiment is only described for parallel-flow heat exchanger, and in other embodiments, heat exchanger 200 can also be pipe finned heat exchanger and other any suitable heat exchangers, requires as long as the bight of heat exchanger 200 meets fixed installation.

See Fig. 5 and Fig. 6, in the preferred embodiment, heat exchanger 200 is rectangle, be fastened on the bight of heat exchanger 200 securely to make beam 500, be conducive to the installation location of heat exchanger 200 simultaneously, beam 500 is provided with the groove 510 suitable with the bight of heat exchanger 200, when practical application, the concrete shape of groove 510 makes adaptive change according to the corner shape of heat exchanger 200, to be formed with the bight of heat exchanger 200 to make groove 510 and closely cooperate, such as groove 510 is other any suitable shapes such as square, semicircle.During concrete assembling, be enclosed within by beam 500 on each bight of heat exchanger 200, preferably, the bight interference fit of groove 510 and heat exchanger 200, on the one hand can stationary heat exchangers 200 securely, assembly manipulation can be made simpler on the other hand.Suitable with the heat exchanger 200 of above-mentioned concurrent flow structure, groove 510 is made up of two parts, and wherein a part is enclosed within the first heat exchange unit 210, and another part is enclosed within the second heat exchange unit 220.In the present embodiment, two parts of groove 510 are spaced apart, and be formed with separating part 512, this separating part 512 embeds the space between the first heat exchange unit 210 and the second heat exchange unit 220, when fixing beam 500, can prevent from together with the first heat exchange unit 210 is pressed on the second heat exchange unit 220 because pressurized diminishes by beam 500, therefore ensure that the heat exchange gap left between the first heat exchange unit 210 and the second heat exchange unit 220.

Further, consider that heat exchanger 200 can produce more condensed water in its surface when freezing, in order to prevent the condensed water that accumulates in groove 510 putrid and deteriorated, beam 500 is provided with and runs through beam 500 and the discharge outlet 511 of communication groove 510, the ponding in groove 510 can be discharged by this discharge outlet 511.It should be noted that; discharge outlet 511 shown in Fig. 5 and Fig. 6 is only example; in actual applications; discharge outlet 511 can arrange multiple, such as, the sidewall of groove 510 is provided with multiple through hole running through beam 500; this through hole forms a part for discharge outlet 511; further, the beam 500 in loose structure also can improve its shock-absorbing capacity, and being conducive to heat exchanger 200 provides better protection.

In the present embodiment, heat exchanger 200 is fixed on fixed support 100 by various ways, such as, by using screw to be fixed on fixed support 100 by beam 500, and then is indirectly fixed on fixed support 100 by heat exchanger 200; Again such as, this heat exchanger load module also comprises the pressing plate 300 and drip tray 400 that are connected with fixed support 100 respectively, by pressing plate 300 and the combination of drip tray 400, heat exchanger 200 is fixed on fixed support 100, particularly, pressing plate 300 is combined with the top of fixed support 100 and is formed with the container cavity (not shown) of the upper end of accommodating heat exchanger 200, the upper end of heat exchanger 200 loads the top being fastened on fixed support 100 in this container cavity, and the lower end of heat exchanger 200 loads the bottom being fastened on fixed support 100 in the water receiving tank 410 of drip tray 400.It should be noted that, when completing assembling, heat exchanger 200 does not directly contact with fixed support 100, pressing plate 300 and drip tray 400, the beam 500 on the top of heat exchanger 200 is pressed on fixed support 100 by pressing plate 300, to limit all around of heat exchanger 200 and to move upward, the beam 500 of the bottom of heat exchanger 200 loads in water receiving tank 410, play the effect of supporting heat exchanger 200, to limit all around of heat exchanger 200 and to move downward, the object of firm heat exchanger 200 comprehensively can be reached under the acting in conjunction of four beams 500.Thus, the assembling of heat exchanger 200 is simple, and good fixing effect, prevents heat exchanger 200 be out of shape owing to impacting in transportation and damage.

See Fig. 4, its center platen 300 is fixed by screws on fixed support 100, and assembling is simple, good fixing effect.Particularly, pressing plate 300 is provided with the multiple through holes 310 distributed along its length, fixed support 100 is provided with the stud (not shown) corresponding with the position of each through hole 310, stud is provided with screwed hole, and pressing plate 300 passes through through the screw fastening in each through hole 310 screwed hole that also screw-in is corresponding on fixed support 100.

Further, pressing plate 300 is formed with the first holding tank (not shown) with the shape adaptation of beam 500 respectively near the position at its two ends, in one embodiment, the side of pressing plate 300 towards its back to side-facing depressions form this first holding tank, as shown in the figure, the outer shape of beam 500 is square, the shape of the first holding tank is also square, after pressing plate 300 is in place, the beam 500 on the top of heat exchanger 200 embeds in the first holding tank, thus reaches better firm effect.In like manner, drip tray 400 is formed with the second holding tank (not shown) with the shape adaptation of beam 500 respectively near the position at its two ends, the beam 500 of the bottom of heat exchanger 200 embeds in the second holding tank.

The utility model also provides a kind of air-conditioner, in one embodiment, this air-conditioner comprises indoor set and off-premises station, wherein indoor set comprises heat exchanger load module, it comprises fixed support and heat exchanger, the upper and lower of heat exchanger has two bights respectively, and each bight is provided with its coated beam, and heat exchanger is suspended on fixed support by the beam on each bight.

This air-conditioner embodiment comprises whole technical schemes of the whole embodiment of above-mentioned heat exchanger load module, and the technique effect reached is also identical, does not repeat them here.

These are only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model description and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (10)

1. a heat exchanger load module, it is characterized in that, comprise fixed support and heat exchanger, the upper and lower of described heat exchanger has two bights respectively, bight described in each is provided with its coated beam, and described heat exchanger is suspended on described fixed support by the beam on bight described in each.

2. heat exchanger load module as claimed in claim 1, it is characterized in that, described beam is provided with the groove suitable with described bight, and described beam is enclosed within described bight.

3. heat exchanger load module as claimed in claim 2, is characterized in that, described groove and described bight interference fit.

4. heat exchanger load module as claimed in claim 2, it is characterized in that, described beam is provided with and runs through described beam and the discharge outlet being communicated with described groove.

5. the heat exchanger load module according to any one of Claims 1-4, it is characterized in that, described heat exchanger load module also comprises the pressing plate and drip tray that are connected with described fixed support respectively, described pressing plate is combined with described support bracket fastened top and is formed with the container cavity of the upper end of accommodating described heat exchanger, the upper end of described heat exchanger loads in described container cavity and is fastened on described support bracket fastened top, and the lower end of described heat exchanger loads in the water receiving tank of described drip tray and is fastened on described support bracket fastened bottom.

6. heat exchanger load module as claimed in claim 5, it is characterized in that, described pressing plate is provided with the multiple through holes distributed along its length, described fixed support is provided with the stud corresponding with the position of through hole described in each, described stud is provided with screwed hole, and described pressing plate passes through through the screw fastening in the described screwed hole that also screw-in is corresponding of through hole described in each on described fixed support.

7. heat exchanger load module as claimed in claim 5, it is characterized in that, described pressing plate is formed with the first holding tank with the shape adaptation of described beam respectively near the position at its two ends, and the beam on the top of described heat exchanger embeds in described first holding tank.

8. heat exchanger load module as claimed in claim 5, it is characterized in that, described drip tray is formed with the second holding tank with the shape adaptation of described beam respectively near the position at its two ends, and the beam of the bottom of described heat exchanger embeds in described second holding tank.

9. heat exchanger load module as claimed in claim 1, it is characterized in that, described heat exchanger is for being flat parallel-flow heat exchanger, described heat exchanger comprises the heat exchange unit of the stacked setting of two rows, described heat exchange unit comprises header, lower header and the flat tube that is arranged between described upper header and described lower header and fin, and the two ends of described flat tube are communicated with described lower header with described upper header respectively.

10. an air-conditioner, is characterized in that, comprises the heat exchanger load module according to any one of claim 1 to 9.